Instance Constructors
-
new
Mem(wordType: HardType[T], wordCount: Int)
Type Members
-
abstract
type
RefOwnerType
Value Members
-
final
def
!=(arg0: Any): Boolean
-
final
def
##(): Int
-
final
def
==(arg0: Any): Boolean
-
var
_spinalTags: Set[SpinalTag]
-
val
_widths: Vector[Int]
-
def
addAttribute(attribute: Attribute): Mem.this.type
-
def
addAttribute(name: String, value: String): Mem.this.type
-
def
addAttribute(name: String): Mem.this.type
-
def
addTag[T <: SpinalTag](spinalTag: T): Mem.this.type
-
def
addTags[T <: SpinalTag](tags: Iterable[T]): Mem.this.type
-
-
def
addressWidth: Int
-
var
algoIncrementale: Int
-
var
algoInt: Int
-
def
apply(address: UInt): T
-
final
def
asInstanceOf[T0]: T0
-
def
byteCount: Int
-
def
clone(): AnyRef
-
-
-
def
dlcForeach[T >: MemPortStatement](func: (T) ⇒ Unit): Unit
-
def
dlcHasOnlyOne: Boolean
-
-
def
dlcIsEmpty: Boolean
-
-
-
final
def
eq(arg0: AnyRef): Boolean
-
def
equals(arg0: Any): Boolean
-
def
existsTag(cond: (SpinalTag) ⇒ Boolean): Boolean
-
def
filterTag(cond: (SpinalTag) ⇒ Boolean): Iterable[SpinalTag]
-
def
finalize(): Unit
-
def
findTag(cond: (SpinalTag) ⇒ Boolean): Option[SpinalTag]
-
var
forceMemToBlackboxTranslation: Boolean
-
def
foreachClockDomain(func: (ClockDomain) ⇒ Unit): Unit
-
def
foreachDrivingExpression(func: (Expression) ⇒ Unit): Unit
-
def
foreachExpression(func: (Expression) ⇒ Unit): Unit
-
def
foreachReflectableNameables(doThat: (Any) ⇒ Unit): Unit
-
def
foreachStatements(func: (MemPortStatement) ⇒ Unit): Unit
-
def
generateAsBlackBox(): Mem.this.type
-
final
def
getClass(): Class[_]
-
def
getDisplayName(): String
-
def
getInstanceCounter: Int
-
def
getMode: Byte
-
def
getName(default: String): String
-
def
getName(): String
-
def
getRefOwnersChain(): List[Any]
-
def
getScalaLocationLong: String
-
def
getScalaLocationShort: String
-
def
getScalaTrace(): Throwable
-
def
getTag[T <: SpinalTag](clazz: Class[T]): Option[T]
-
def
getTags(): Set[SpinalTag]
-
val
getWidth: Int
-
-
def
hasOnlyOneStatement: Boolean
-
def
hasTag[T <: SpinalTag](clazz: Class[T]): Boolean
-
def
hasTag(spinalTag: SpinalTag): Boolean
-
def
hashCode(): Int
-
-
def
init(initialContent: Seq[T]): Mem.this.type
-
def
initBigInt(initialContent: Seq[BigInt]): Mem.this.type
-
var
initialContent: Array[BigInt]
-
def
insertNext(s: Statement): Unit
-
def
instanceAttributes(language: Language): Iterable[Attribute]
-
def
instanceAttributes: Iterable[Attribute]
-
def
isEmptyOfTag: Boolean
-
final
def
isInstanceOf[T0]: Boolean
-
def
isNamed: Boolean
-
def
isPriorityApplicable(namePriority: Byte): Boolean
-
def
isUnnamed: Boolean
-
var
lastScopeStatement: Statement
-
var
name: String
-
var
nameableRef: Nameable
-
final
def
ne(arg0: AnyRef): Boolean
-
var
nextScopeStatement: Statement
-
def
normalizeInputs: Unit
-
final
def
notify(): Unit
-
final
def
notifyAll(): Unit
-
def
onEachAttributes(doIt: (Attribute) ⇒ Unit): Unit
-
-
def
randBoot(): Mem.this.type
-
-
def
readAsyncImpl(address: UInt, data: Data, readUnderWrite: ReadUnderWritePolicy = dontCare, allowMixedWidth: Boolean): Unit
-
def
readSync(address: UInt, enable: Bool = null, readUnderWrite: ReadUnderWritePolicy = dontCare, clockCrossing: Boolean = false): T
-
def
readSyncImpl(address: UInt, data: Data, enable: Bool = null, readUnderWrite: ReadUnderWritePolicy = dontCare, clockCrossing: Boolean = false, allowMixedWidth: Boolean = false): Unit
-
def
readSyncMixedWidth(address: UInt, data: Data, enable: Bool = null, readUnderWrite: ReadUnderWritePolicy = dontCare, clockCrossing: Boolean = false): Unit
-
def
readWriteSync(address: UInt, data: T, enable: Bool, write: Bool, mask: Bits = null, readUnderWrite: ReadUnderWritePolicy = dontCare, clockCrossing: Boolean = false): T
-
def
readWriteSyncImpl[U <: Data](address: UInt, data: U, enable: Bool, write: Bool, mask: Bits = null, readUnderWrite: ReadUnderWritePolicy = dontCare, clockCrossing: Boolean = false, allowMixedWidth: Boolean = false): U
-
def
readWriteSyncMixedWidth[U <: Data](address: UInt, data: U, enable: Bool, write: Bool, mask: Bits = null, readUnderWrite: ReadUnderWritePolicy = dontCare, clockCrossing: Boolean = false): U
-
-
def
reflectNames(): Unit
-
def
remapDrivingExpressions(func: (Expression) ⇒ Expression): Unit
-
-
def
removeStatement(): Unit
-
def
removeStatementFromScope(): Unit
-
def
removeTag(spinalTag: SpinalTag): Mem.this.type
-
def
removeTags(tags: Iterable[SpinalTag]): Mem.this.type
-
-
def
setCompositeName(nameable: Nameable, postfix: String, namePriority: Byte): Mem.this.type
-
def
setCompositeName(nameable: Nameable, postfix: String, weak: Boolean): Mem.this.type
-
def
setCompositeName(nameable: Nameable, postfix: String): Mem.this.type
-
def
setCompositeName(nameable: Nameable, namePriority: Byte): Mem.this.type
-
def
setCompositeName(nameable: Nameable, weak: Boolean): Mem.this.type
-
def
setCompositeName(nameable: Nameable): Mem.this.type
-
def
setName(name: String, namePriority: Byte): Mem.this.type
-
def
setName(name: String, weak: Boolean): Mem.this.type
-
def
setName(name: String): Mem.this.type
-
def
setPartialName(name: String, namePriority: Byte): Mem.this.type
-
def
setPartialName(name: String, weak: Boolean): Mem.this.type
-
def
setPartialName(owner: Nameable, name: String, namePriority: Byte): Mem.this.type
-
def
setPartialName(owner: Nameable, name: String, weak: Boolean): Mem.this.type
-
def
setPartialName(name: String): Mem.this.type
-
def
setPartialName(owner: Nameable, name: String): Mem.this.type
-
def
setRefOwner(that: Any): Unit
-
def
setScalaLocated(source: ScalaLocated): Mem.this.type
-
-
def
setWeakName(name: String): Mem.this.type
-
def
spinalTags: Set[SpinalTag]
-
final
def
synchronized[T0](arg0: ⇒ T0): T0
-
-
def
toString(): String
-
def
toStringMultiLine(): String
-
def
unsetName(): Mem.this.type
-
final
def
wait(): Unit
-
final
def
wait(arg0: Long, arg1: Int): Unit
-
final
def
wait(arg0: Long): Unit
-
def
walkDrivingExpressions(func: (Expression) ⇒ Unit): Unit
-
def
walkExpression(func: (Expression) ⇒ Unit): Unit
-
def
walkParentTreeStatements(func: (TreeStatement) ⇒ Unit): Unit
-
def
walkParentTreeStatementsUntilRootScope(func: (TreeStatement) ⇒ Unit): Unit
-
def
walkRemapDrivingExpressions(func: (Expression) ⇒ Expression): Unit
-
def
walkRemapExpressions(func: (Expression) ⇒ Expression): Unit
-
val
width: Int
-
val
wordCount: Int
-
val
wordType: HardType[T]
-
def
write(address: UInt, data: T, enable: Bool = null, mask: Bits = null): Unit
-
def
writeImpl(address: UInt, data: Data, enable: Bool = null, mask: Bits = null, allowMixedWidth: Boolean = false): Unit
-
def
writeMixedWidth(address: UInt, data: Data, enable: Bool = null, mask: Bits = null): Unit
Deprecated Value Members
-
Inherited from AnyRef
Inherited from Any